Features of the Flow Structure in the Vicinity of the Inner Lagrangian Point in Polars

Isakova, P. B.; Жилкин, А. Г.; Бисикало, Д. В.

doi:10.1134/s1063772918080024

Cited by 3 publications

(3 citation statements)

References 38 publications

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“…This model is based on the equations system of modified magnetic hydrodynamics, which describes astrophysical flows under conditions of a strong external magnetic field. We have successfully applied this approach to modeling the flow structure for both polars and intermediate polars [5,[16][17][18][19][20][21][22][23][24][25][26][27][28].…”

Section: Numerical Modelmentioning

confidence: 99%

Hot Spots Drift in Synchronous and Asynchronous Polars: Results of Three-Dimensional Numerical Simulation

2021

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In this paper, the characteristics of hot spots on an accretor surface are investigated for two types of polars: the eclipsing synchronous polar V808 Aur and the non-eclipsing asynchronous polar CD Ind in configuration of an offset and non-offset magnetic dipole. The drift of hot spots is analyzed based on the results of numerical calculations and maps of the temperature distribution over the accretor surface. It is shown that a noticeable displacement of the spots is determined by the ratio of ballistic and magnetic parts of the jet trajectory. In the synchronous polar, the dominant influence on the drift of hot spots is exerted by variations in the mass transfer rate, which entail a change in the ballistic part of the trajectory. It was found that when the mass transfer rate changes within the range of 10−10M⊙/year to 10−7M⊙/year, the displacement of the hot spot in latitude and longitude can reach 30∘. In the asynchronous polar, a change in the position of hot spots is mainly defined by the properties of the white dwarf magnetosphere, and the displacement of hot spots in latitude and longitude can reach 20∘.

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Section: Numerical Modelmentioning

confidence: 99%

Hot Spots Drift in Synchronous and Asynchronous Polars: Results of Three-Dimensional Numerical Simulation

2021

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“…Some observational data provide evidence in favor of the accretion flow in the shape of a curtain (see [3] for references). Numerical modeling of accretion in polars suggests that the flow can have a complex hierarchical structure [14].…”

Section: Introductionmentioning

confidence: 99%

“…1 we present results of 3D numerical modeling of the flow structure in a typical polar. Computations were performed in the framework of model described by [14], with a computational domain containing a 384 × 384 × 192 grid. The parameters of the binary system correspond to AM Her.…”

Section: Introductionmentioning

confidence: 99%

A Possible Mechanism for the Radio Emission of Polars

2019

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We suggest a mechanism for generation of radio emission from polars. It is based on the cyclotron radiation of thermal electrons at the background of fluctuating magnetic field. The source of fluctuations is Alfvén wave turbulence. Expressions for the radiation spectrum and degree of polarization are obtained. By the example of the polar AM Her, the fluxes of radio emission from the accretion stream are calculated. Within the framework of proposed emission model, with realistic plasma characteristics, it is possible to reproduce observed radiation fluxes in the VLA bands. * kurbatov@inasan.ru † zhilkin@inasan.ru ‡ bisikalo@inasan.ru

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Flow Structure in the Eclipsing Polar V808 Aur. Results of 3D Numerical Simulations

et al. 2019

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Features of the Flow Structure in the Vicinity of the Inner Lagrangian Point in Polars

Cited by 3 publications

References 38 publications

Hot Spots Drift in Synchronous and Asynchronous Polars: Results of Three-Dimensional Numerical Simulation

Hot Spots Drift in Synchronous and Asynchronous Polars: Results of Three-Dimensional Numerical Simulation

A Possible Mechanism for the Radio Emission of Polars

Flow Structure in the Eclipsing Polar V808 Aur. Results of 3D Numerical Simulations

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